WO2006134024A1

WO2006134024A1 - Remote control device for a vehicle and method for configuring a remote control device

Info

Publication number: WO2006134024A1
Application number: PCT/EP2006/062752
Authority: WO
Inventors: Kai Hennicke; Marcus Gradilone
Original assignee: Johnson Controls Gmbh
Priority date: 2005-06-16
Filing date: 2006-05-31
Publication date: 2006-12-21
Also published as: DE102005028075B4; DE102005028075A1

Abstract

The invention relates to a remote control device for a vehicle and a method for configuring a remote control device, a plurality of parameter sets for different actuation signals being saved in a memory and, for selecting an actuating signal, a defined identification code being input into the remote control device.

Description

Remote control device for a vehicle and method for configuring a remote control device

The present invention relates to a remote control device for a vehicle, in particular for the actuation of a garage door drive by means of electromagnetic waves with a transmitter associated with the remote control device.

Such remote control devices are generally known. For example, from US 2005/0024185 A1 a programmable remote control device is known, which is able to automatically learn activation signals. Here, a sensor is positioned in the vicinity of the system to be operated remotely. Furthermore, it is known to provide so-called universal remote control devices, which are in particular permanently installed in a vehicle and with various remote-controlled devices, in particular different garage door operators of different manufacturers and with different activation signals to work together in a position. A disadvantage of the known systems is that a great deal of effort has to be made in order to arrive at the definition of the correct actuation signal, for example for the garage door operator, i. E. to perform a configuration of the remote control device. In this case, transceivers are already provided in the prior art, which receives an opening signal, which is sent from the supplied with the garage door drive remote control unit, analyzed and from this reaches the correct opening signal for the garage door drive. It is furthermore known from the above-cited US patent to position a sensor which provides feedback about the successful opening, for example of a garage door. Furthermore, it is disadvantageous that the configuration of a remote control device takes a relatively long time and is uncomfortable for a user.

The invention is therefore an object of the invention to provide a remote control device for a vehicle in which the selection of the correct opening signal is possible with the simplest possible means, so that the remote control device according to the invention is inexpensive to produce and for a user the highest possible comfort in the configuration can be achieved that the configuration is as fast and easy as possible. This object is achieved by a remote control device for a vehicle, in particular for actuation of a garage door drive by means of electromagnetic waves, wherein a transmitter of the remote control device is assigned, wherein the transmitter is provided to send a plurality of Aktuierungs- signals of different structure, either for the first transmission by the transmitter of a specific actuation signal from the plurality of actuation signals, the input of a parameter set corresponding to the structure of the actuation signal is provided or in a memory assigned to the remote control device a parameter set corresponding to the structure of the actuation signal is provided for each actuation signal, each activation signal or signal Each parameter set is associated with a unique identification code, wherein for the first transmission by the transmitter of a particular actuation signal from the plurality of actuation signals, the input of the identification signal corresponding to the particular actuation signal is provided in the remote control device. As a result, according to the invention, it is advantageously possible to save a whole circuit block provided in the remote control device for the reception and analysis of received actuation signals, as a result of which the remote control device according to the invention can be produced particularly inexpensively. Furthermore, as a result, the remote control device is also lighter and smaller, so that further needs in vehicle construction is taken into account. The remote control device will hereinafter also be referred to as a universal remote control device. Although the first alternative of determining the actuation signal by inputting a parameter set corresponding to the structure of the actuation signal has the disadvantage of a somewhat less comfortable configuration of the remote control device for a user, according to the invention it is advantageously possible to remotely control it, even in the case of newly put on the market Units and their corresponding remote control units or in the case of remotely controlled units smaller manufacturers a configuration of the remote control device as simple and fast as possible. The second alternative of a determination of the actuation signal by the input of an identification code has the advantage that in this way the configuration of the remote control device is simplified and made more comfortable in a special way. Under the "first-time transmission" of the Aktuierungssignals is under The present invention is intended to mean the first time transmission of an actuation signal from a particular structure. This means that prior to the first transmission of an actuation signal of a specific structure, this structure must be determined by entering the identification code or the parameter set. Of course, a "first-time transmission" also means the first-time transmission after a reset of the remote-control device, after an exchange or deletion of the memory or the like.

According to the invention, it is particularly preferred that, in addition to the input of the identification code corresponding to the structure of the actuation signal, the input of one of the structure of the actuation signal of a corresponding encryption code is provided. In this way it is possible, in the case of devices to be remotely controlled, which can be activated with a fixed code (in contrast to a so-called "rolling code"), to input the fixed code portion as the encryption code in a targeted manner and with simple means to a functioning universal remote control device for controlling the devices to be remotely operated to get.

It is further preferred that the input of the identification code and / or the encryption code and / or the parameter set is provided in the remote control device by means of controls provided on the remote control device. As a result, it is possible with particularly little effort and in a particularly intuitive manner for a user to carry out the setup or configuration of the remote control device.

It is further preferred according to the invention that the remote control device can be connected to a data communication bus within the vehicle and the input of the identification code and / or the encryption code and / or the parameter set by means of a man-machine interface which can also be connected to the data communication bus or by means of a connectable to the data communication bus Diagnostic device is provided. This is advantageous in that the universal remote control device according to the invention does not necessarily have to have operating elements, so that these operating elements can be saved, which leads to a cost reduction of Remote control device and to a further miniaturization of the remote control device and to greater degrees of freedom in the possible installation location of the remote control device leads into the vehicle. Furthermore, according to the invention, this can lead to a user also carrying out the configuration of the universal remote control device via a human-machine interface familiar to the user - for example the man-machine interface of the on-board computer, the car radio, the vehicle telephone system or the like the configuration of the universal remote control device is particularly convenient. Furthermore, it is thus also possible that the universal remote control device is performed by a specialist by means of a diagnostic device on a (also connected to the data communication bus of the vehicle) diagnostic interface, so that the configuration of the universal remote control device for the user is not associated with additional efforts or time is. Here, the existing interfaces can also be used to complete the existing information in the memory with regard to any existing updates (updates).

It is likewise preferred according to the invention that the remote control device has a hardware interface, wherein an input device can be connected to the input of the identification code and / or the encryption code and / or the parameter set at the hardware interface. The advantage of this is that the operation of the remote control device according to the invention can be made particularly secure, namely, for example, a configuration module with the remote control device via the hardware interface is merely connected to the configuration of the remote control device and by means of controls that are present only on the configuration module, the configuration of Remote control device is performed. It can be inventively provided that the configuration of the remote control device without the configuration module is not possible.

According to the invention it is further preferred that the memory is provided in the remote control device. Furthermore, it may alternatively be provided according to the invention that the memory is arranged separately from the remote control device either in the vehicle or outside the vehicle. As a result, it is possible according to the location of the memory largely arbitrary to choose and set up the location of the memory on the vehicle configuration.

Another object of the present invention is a method for configuring a remote control device, wherein in a first step in a memory associated with the remote control device a plurality of parameter sets is stored, each parameter set corresponds to a particular Aktuierungssignal of a plurality of Aktuierungssignalen of different structure and wherein each Actuating signal or each parameter set corresponds to an identification code, wherein in a second step by entering a specific identification code, the remote control device is configured to transmit the Aktuierungssignals corresponding to the identification code. It is thus possible by simple means to make a configuration of the remote control device, in particular, the inventive method requires a significantly lower cost both in performing the configuration as well as a change in the configuration of the remote control device as conventional systems in which the remote control device must be trained or in which the remote control device needs to detect a particular actuation signal.

Furthermore, it is preferred that in a third step, an encryption key corresponding to the structure of the activation signal selected in the second step is input to the remote control device. This makes it possible to make a complete configuration, for example a fixed code remote operating system.

The invention will be explained in more detail with reference to embodiments shown in the drawings.

FIG. 1 schematically shows an application of a universal remote control device according to the invention using the example of a garage door handle,

FIG. 2 shows a first embodiment of a remote control device according to the invention, FIG. 3 shows a second embodiment of a remote control device according to the invention,

FIG. 4 shows a detail of a memory associated with the remote control device according to the invention and FIG

Figure 5 shows a schematic representation of different types of Aktuierungssignalen.

FIG. 1 schematically shows a basic arrangement of a remote control device 10 according to the invention. The remote control device 10, which will also be referred to as a universal remote control device 10 in the example shown, is used to control a motor 30 of a garage door 31, the motor 30 having a receiver, not shown, connected to the remote control device 10 via, in particular, a radio interface, i. by means of electromagnetic waves, is able to communicate. The radio interface is designated by the reference numeral 25 in FIG. As a rule, the garage door drive 30 is usually supplied with a remote control unit 20 which is capable of generating and transmitting a signal which switches the motor 30 off and on or, if appropriate, can control further functions on the garage door drive 30. The motor 30 or the garage door drive 30 will be described in the following representative of a variety of possible fernzusteuernder devices 30. However, it is of course possible according to the invention to remotely control all such devices 30, for example a house lighting or a closet entrance or an underground garage opening or other remotely controllable units, in particular in the home area by means of the remote control device 10 according to the invention.

The remote control device 10 according to the invention is intended to replace the remote control unit 20. The remote control device 10 is in particular fixedly mounted in a vehicle 1, so that, for example in or on the roof area of the / the sun visor / mirror or in the center console area of the vehicle 1, a simple operation of the remote control device 10 for actuating the garage door 31 is possible. The of the remote control device 10 and the Remote control unit 20 to the garage door lever 30 emitted signals are designated in Figure 1 by the reference numeral 25.

2 shows a first embodiment of a remote control device 10 according to the invention is shown, wherein the remote control device 10 is connected to a data communication bus 1 1 in the first embodiment. To the data communication bus 1 1, a transmitter 12, a memory 14, controls 16 and a man-machine interface 17 is further connected. Usually, however, it is provided according to the invention that at least the transmitter 12 is provided integrated in a unit with the remote control device 10. However, an arrangement shown in Figure 2 of the remote control device 10 with a separate from the remote control device 10 transmitter 12 is conceivable, such as when the transmitter 12 is disposed on the outside of the vehicle 1 and in the front of the vehicle 1 and the remote control device 10 in Interior of the vehicle is arranged. The memory 14 may also be delocalized either in the remote control device 10 or in a mass storage such as a CD or a DVD or other storage unit - for example in the car radio or in the navigation device. According to the invention, it is provided that at least one identification code or a parquet set of the remote control device 10 can be supplied in any way. For this purpose, it is possible according to the invention that different operating elements 16 are provided or, alternatively, it is possible that a man-machine interface 17 is provided. Such operating elements 16 or a human-machine interface 17 can either be integrated together with the remote-control device 10 or else be arranged separately therefrom.

FIG. 3 shows a second embodiment of a remote control device 10 according to the invention, the remote control device 10 comprising the transmitter 12, the memory 14 and the operating elements 16. As an alternative to the actuating elements, it is possible in the second embodiment of the operating device 10 according to the invention that a hardware interface 19 is provided, to which an input device 15 can be connected. According to the invention, it is provided in particular that the input device 15 is provided as a configuration module only for configuring the remote control device 10. The embodiments of the remote control device 10 according to the invention shown in Figures 2 and 3 are exemplary only and to some extent to be understood as extreme examples, namely because the remote control device is provided almost completely delocalized in the first embodiment (both the transmitter 12 and the memory 14, the controls 16 and the man-machine interface 17 are outsourced) and in the second embodiment, the remote control device is provided almost completely integrated. According to the invention, both these two solutions are possible as well as "mixing solutions" in which, for example, only the transmitter 12 is outsourced, for example because a transmitter is already provided for the transmitter functionality on the vehicle 1 or such an already provided transmitter is located particularly advantageously also only the memory 14 may be outsourced, for example because it is only necessary for the configuration phase of the remote control device 10. However, in this case, the remote control device 10 has memory locations (not shown) which allow the parameter set to be set or configured Store the actuation signal or the parameter sets for the plurality of configured Aktuierungssignalen.

In Figure 4, the memory 14 is shown at least schematically and in partial areas. The memory 14 according to the invention is an internal memory within the remote control device 10, such. As a ROM memory, a RAM memory, an EEPROM memory. Alternatively, the memory 14 may also be a remote memory 10 with respect to the remote control device, such. These include CF (CompactFlash), SD (Secure Digital), USB, SmartMedia, PCMCIA, and other non-volatile storage. In the memory 14, a plurality of parameter sets 51 are stored together with these corresponding identification codes 52. In this case, each parameter set 51 corresponds to an actuation signal 61 which can be sent from the remote-control device 10 to the unit 30 to be remotely controlled. In this case, the different actuation signals 61 have different structures according to the invention. For the purposes of the present invention, a parameter set 51 here comprises information such as the (fundamental) frequency of the actuation signal, the type of modulation, the modulation frequency, the bit length, the code to be used, a wide variety of different types Characteristics of the frame of the actuation signal 61 and the like. For the purposes of the present invention, "actuation signals 61 of different structure" are understood to differ in such features as (fundamental) frequency of the actuation signal, type of modulation, modulation frequency, bit length, characteristics of the frame and the like In the context of the present invention, the term "actuation signals of different structure" is therefore those actuation signals 61 which are emitted by different remote control units 20 of different manufacturers or different product families. Under no circumstances is the term "actuation signals of different structure" to such Aktuierungssignale 61, although - for example due to different encryption codes 53, for example, to distinguish the Aktuierungssignale 61 devices of different customers or to distinguish the Aktuierungssignale 61 of the same fernzusteuernde device 30 controlling remote control units 20-, which, however, have the same (physical) basic structure and can be transmitted or emitted by a remote control unit 20. Such similar remote control units 20 are considered in the sense of the present invention as remote control units 20 which emit actuation signals 61 of the same kind or output actuation signals of the same structure, although such Aktuierungssignale in detail, for example, at the level of the encryption code or the like up differences iron can.

In Figure 5, the different structure of different Aktuierungssignale 61 is indicated schematically. By way of example, the first actuation signal 61 designated as 61 a in FIG. 5 is constructed from three units which follow one another in chronological succession. For example, the first unspecified unit corresponds to a first area identifying the transmitter; For example, the second unit indicates an encryption key 53 and a third unit, also not designated, indicates the function of the transmitted actuation signal 61 (eg, "open garage door" or "close garage door"). A second example 61 b of an actuation signal 61 is shown in the middle in FIG. 5, the sequence of the units being the same, but the encryption code being considerably larger, so that the structure of the actuation signal 61 b depends on the structure of the actuation signal 61 a distinguishes. In the lower part of Figure 5 is a third example 61 c of an actuation signal 61 shown, for example, the encryption key 53 is omitted.

For carrying out the method according to the invention, a specific parameter set 51 and a corresponding actuation signal 61 are selected by input of the identification code 52 via any input means or input interface, for example voice-controlled via a human-machine interface, and preferably stored in the remote control device 10. The configuration of the remote control device 10 is then completed. When actuated by means of an actuating means either on the remote control device 10 or also on another input means in the vehicle 1, the selected actuation signal 61 is discontinued and the remote-controlled unit 30 is actuated.

The encryption key 53 may be, for example, the setting of dip switches, with the same setting being provided in both the remote unit 30 and the remote control apparatus 10. In the use of a so-called rolling code - ie remote control device 10 or the remote control unit 20 remotely controlled by each remote control unit 20 a differently encrypted Aktuierungssignal 61 is discontinued - must in any case, the remote control unit 10 after its configuration by entering the identification code 52 in the be remotely controlled unit by a known method.

LIST OF REFERENCE NUMBERS

1 vehicle

10 remote control device

20 remote control unit

25 radio interface

30 remote unit / motor / garage door operator

31 garage door

1 1 data communication bus

12 stations

14 memory

15 input device

16 controls

17 human-machine interface

19 hardware interface

51 parameter set

52 identification code

53 encryption code

61, 61 a, 61 b, 61 c actuation signal

Claims

claims

A remote control device (10) for a vehicle (1), in particular for the actuation of a garage door lever (30) by means of electromagnetic waves, with a remote control device (10) associated transmitter (12), wherein the transmitter (12) is provided, a A plurality of Aktuierungssig- signals (61) of different structure to send, characterized in that either for the first time transmission by the transmitter of a certain Aktuierungssignals (61) from the plurality of Aktuierungssignale (61) the input of the structure of the Aktuierungssignals (61) corresponding Parameter set (51) is provided or that in one of the remote control device (10) associated memory (14) for each Aktuierungssignal (61) one of the structure of the Aktuierungssignals (61) corresponding parameter set (51) is provided, each Aktuierungssignal (61) or each parameter set (51) is associated with a unique identification code (52), wherein the first Aussendu ng by the transmitter (12) of a certain Aktuierungssignals (61) from the plurality of Aktuierungssignalen (61), the input of the particular Aktuierungssignal (61) corresponding identification code (51) is provided in the remote control device (10).

2. Remote control device (10) according to claim 1, characterized in that in addition to the input of the structure of the Aktuierungssignals (61) corresponding identification codes (52) the input of the structure of the Aktuierungssignals (61) corresponding encryption code (53) is provided.

3. Remote control device (10) according to any one of the preceding claims, characterized in that the input of the identification code (52) and / or the encryption key (53) and / or the parameter set (51) in the remote control device (10) by means of the remote control device ( 10) provided controls (16) is provided.

4. Remote control device (10) according to any one of the preceding claims, characterized in that the remote control device (10) to a data communication bus (11) within the vehicle (1) can be connected and the input of the identification code (52) and / or the encryption code (53 ) and / or the parameter set (51) by means of a likewise to the data communication bus (1 1) connectable man-machine interface (17) or by means of a connectable to the data communication bus (1 1) diagnostic device (18) is provided.

5. Remote control device (10) according to any one of the preceding claims, characterized in that the remote control device (10) has a hardware interface (19), wherein for inputting the identification code (52) and / or the encryption code (53) and / or the parameter set ( 51) at the hardware interface (19) an input device (15) can be connected.

6. Remote control device (10) according to any one of the preceding claims, characterized in that the memory (14) in the remote control device (10) is provided.

7. Remote control device (10) according to any one of the preceding claims, characterized in that the memory (14) is provided separately from the remote control device (10) either in the vehicle (1) or outside of the vehicle (1).

8. A method for configuring a remote control device (10) according to one of the preceding claims, characterized in that in a first step in a remote control device (10) associated memory (14) a plurality of parameter sets (51) are stored, each parameter set ( 51) corresponds to a particular Aktuierungssignal (61) from a plurality of Aktuierungssignalen (61) of different structure and wherein each Aktuierungssignal or each parameter set (51) corresponds to an identification code (52), wherein in a second step by entering a particular identification - codes (52) the remote control device (10) is configured to transmit the activation code (61) corresponding to the identification code (52).

9. The method according to claim 8, characterized in that in a third

Step, an encryption key (53) corresponding to the structure of the actuation signal (61) selected in the second step is input to the remote control device (10).